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allosteric regulation by inhibitory ligands. Multiscale modeling that combines quantum mechanical and molecular mechanical potentials will allow us to determine the atomistic details of phosphoryl transfer and
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microscopy and spectroscopy (STM/STS), and atomic force microscopy (AFM). Topics of interest include (1) energy level spectroscopy of quantum confined structures and two-dimensional electron systems, including
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with individual device measurements such as I-V curve, quantum efficiency and time resolved PL measurements allows us to elucidate a complete picture of charge transport phenomena in photovoltaic devices
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, and spectroscopy instrumentation. electron microscopy; reliability; electronics; 2D materials; quantum materials; characterization
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integrated nanophotonic devices and systems with novel mechanisms to generate, detect and manipulate light on chip, for classical and quantum information processing. All projects involve development of new
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; and (2) experiments devoted to studies of quantum-state engineering and entanglement with application to quantum-information processing, quantum simulation, spectroscopy, and tests of quantum mechanics
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NIST only participates in the February and August reviews. A Bose-Einstein condensate (BEC) of a dilute gas is a unique quantum system with many atoms occupying the same quantum state of both
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on multiple scales, ranging from continuum and empirical molecular mechanics models to first-principles quantum chemistry, often fall short for complementary reasons: the various intermolecular interactions
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-ray metrology will guarantee results that provide for a wide x-ray community including collaborators developing cryogenic quantum sensors (transition edge sensors: TES) at NIST. key words x-ray
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the synthesis-process-structure-property relationship for quantum solid state materials. References: Liang, et al., 2025. Real-time experiment-theory closed-loop interaction for autonomous materials science